Antipredator responses of bats during short boreal nights with variable climatic conditions
: Suutari, Miina S.; Lehikoinen, Aleksi; Lehto, Harry J.; Lilley, Thomas M.
Publisher: OXFORD UNIV PRESS INC
: CARY
: 2024
: Journal of Mammalogy
: JOURNAL OF MAMMALOGY
: J MAMMAL
: gyae124
: 9
: 0022-2372
: 1545-1542
DOI: https://doi.org/10.1093/jmammal/gyae124
: https://doi.org/10.1093/jmammal/gyae124
: https://research.utu.fi/converis/portal/detail/Publication/477658911
The threat of predation can influence the behavior of animals. To minimize the impact of predation, animals rely on antipredatory responses and effectively balance these responses with other activities to maximize survival. Boreal bats are nocturnal animals that must forage within a narrow time frame during short, light summer nights with unpredictable weather. Despite having no specialized predators, boreal bats are still subject to predation. However, whether they express antipredatory responses has not been established. We studied antipredatory responses and responses to climatic conditions in boreal bats in 2 settings: 1) during roost emergence; and 2) during foraging within Tawny Owl territories and at locations with no Tawny Owl sightings. Acoustic data were collected at 23 roosts and 10 foraging grounds. Two controlled predation threats were used-playbacks of Tawny Owl calls and fledgling calls. Fledgling calls were only played during roost emergence. In both experiments, music and no treatment were used as controls. We also incorporated weather variables in the model. According to our results, bats tend to delay their emergence by 16 min when Tawny Owl calls were played outside the roost, but this effect was not noticeable when weather variables were included. There was no difference in exit time when music or fledgling sounds were played. While foraging, bats reduced their activity in Tawny Owl territories when calls of owls or music were played compared to no treatment. These results suggest that bats might display variable antipredatory responses, but weather influences behavior of bats more than predation risk, highlighting the importance of energy-saving strategies at northerly latitudes.
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MSS was funded by Societas Biologica Fennica Vanamo during initial data collection and by Societas pro Fauna et Flora Fennica during writing, TML was funded by Research Council of Finland, grant #331515 and AL was funded by Research Council of Finland, grant #1362647
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